Boron Side Chain

Different oximes can be used, but the major structural modifications of the complex are achieved at the boronic side chain (Ri). 

The pharmaceutical interest in the tricyclic structure of dibenz[6,/]oxepins with various side chains in position 10(11) stimulated a search for a convenient method for the introduction of functional groups into this position. It has been shown that nucleophilic attack at the carbonyl group in the 10-position of the dibenzoxepin structure renders the system susceptible to water elimination. Formally, the hydroxy group in the enol form is replaced by nucleophiles such as amines or thiols. The Lewis acids boron trifluoride-diethyl ether complex and titanium(IV) chloride have been used as catalysts. 

Dienones, such as 4-[4-(trimethylsilyl)-2-butenyl]-3-vinyl-2-cyclohexenone, are useful precursors for these particular transformations the allylsilane side chain is too short for effective 1,4-addition, but just right for 1,6-addition, resulting in six-ring annulation. Three different Lewis acids can be used titanium(IV) chloride, boron trifluoride diethyl ether complex, and ethylaluminum dichloride. The best chemical yields and complete asymmetric inductions were obtained with ethylaluminum dichloride. 

Boron chains linked to form open nets trigonal prism Zigzag chains with side chains trigonal prism... 

It is necessary to remember that as well as organic cross-links, elements such as boron, silicon and calcium cross-link all the major external proteins and saccharides even in the walls of prokaryotes. Many of the cross-linking binding sites are of oxidised side chains of biopolymers. As described in Section 8.10, certain of these elements form mineral deposits but now these minerals are frequently found inside the multi-cellular organisms. Here, we see a great difference between the chemo-types of plants and animals. The acidity of the extracellular fluids of plants differs from the neutral fluid of animals. It is not possible to precipitate calcium carbonates (shells) or phosphates (bones) in plants due to the weak acid character of these anions (see Table 8.12). Plants therefore precipitate silica and calcium... 

The rhodium-catalyzed borylation of alkanes is applied to regiospecific functionalization of polyolefines.165,165a The reaction of polypropylenes (atactic, isotactic, and syndiotactic) with B2pin2 in the presence of Cp Rh( 74-C6Me6) catalyst at 200 °G affords the borylated polymers, which are treated with basic hydrogen peroxide in a mixture of THF and H20 to oxidize the boronate esters to the corresponding alcohols (Scheme 20). The hydroxylated polymers contain 0.2-1.5% hydroxymethyl side-chains. 

S.3.2 Via Mannich-Type Reaction. Hattori et al.42 used a Mannich-type reaction for constructing the taxol side chain. In the presence of a BINOL-containing boron compound, the asymmetric Mannich reaction proceeded smoothly, providing the product with good yield (Scheme 7-86). 

The protected diol side-chain of 456 is introduced by asymmetric dihydroxylation and directs diastereoselectivity in the formation of 457 and 458 by lithiation. The most acidic position of 456, between the two methoxy groups, is first protected by silylation. Suzuki coupling of 459 with the boronic acid 460 gives the kinetic product 461—the more severe hindrance to bond rotation in this compound does not allow equilibration to the more stable atropisomer of the biaryl under the conditions of the reaction. 

Monsanto disclosed the manufacture of ethylbenzene through a different approach by the methylation of toluene in the side chain.318 A cesium-exchanged faujasite promoted by boron or phosphorus is used as the catalyst. Toluene and methanol (5 1) reacting at 400-475°C produce an ethylbenzene-styrene mixture at very high toluene conversion. About 50% of the methanol is converted to carbon monoxide and hydrogen, which is a disadvantage since such a plant should operate in conjunction with a methanol synthesis plant. 

A comparative study with various types of zeolite showed that Cs-exchanged X and Y zeolites were active for toluene alkylation but primarily catalyzed the decomposition of methanol to CO.431 L and Beta zeolites, in turn, were less active and required higher reaction temperature but were much more selective, providing only very little CO. Adding boron to Cs-exchanged zeolites promotes the alkylation reaction 432 It appears that boron reduces the decomposition of methanol to CO without inhibiting active sites for side-chain alkylation. 

A variation of this route was applied to the preparation of a-methylenecyclo-pentane 179, an intermediate that was employed for the synthesis of prostaglandin PGF2o, (180) (Scheme 6.82). The acetonide-protected oxime-diol 175 [derived from propanal (174)] was treated with sodium hypochlorite without the addition of base. This led to the tricyclic adduct 176 with high stereoselectivity. One of the side chains was subsequently elaborated and the fully protected cyclopentano-isoxazo-line (177), when exposed to Raney Ni/boron trichloride, gave the 2-hydroxymethyl-cyclopentanone (178). This compound was dehydrated using mesyl chloride/ pyridine to furnish enone (179) (324). In another related synthesis of PGF2q, the p-side-chain (3-hydroxyoctenyl) was introduced prior to the cycloaddition (325). 

Peptides with Boronic Acid Side Chains... 

The effectiveness of a-aminoboronic acids with neutral side chains as inhibitors of proteases has prompted the preparation of inhibitors with functionalized side chains. These include those with a basic side chain (boroOrn, boroArg, and boroLys), sulfur-containing side chain (boroMet), a pyrrolidine (boroPro), and a 3-cyano-substituted benzyl side chain. The synthesis and properties of the neutral side-chain boronic acids are discussed first followed by descriptions of the preparation of more specialized a-aminoboronic acids. 

A synthetic procedure 33 has been developed for the preparation of boronic acids with a protected aldehyde side chain, 2-(l,3-dioxolan-2-yl)ethyl, which is readily converted into boroOrn peptides similar to 30. Peptides containing boroLys were prepared by a series of reactions analogous to those used for the preparation of 30 except 4-bromobut-l-ene was used as starting material in place of 3-bromoprop-l -ene 36 ... 

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